Note : Les descriptions sont présentées dans la langue officielle dans laquelle elles ont été soumises.
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BLANKING STATION OF A DIECUTTING PRESS
The present invention refers to a blanking station of a diecutting
press, comprising an upper cradle for a blanking device and gripper bars for
conveying the sheets in progress.
When diecutting sheets in a diecutting press, it is possibie,
according to the kind of job carried out on the press, to collect the blanks
separately in distinct piles or to deliver the non-severed sheet if to be
processed
in another machine, before or after the sheet diecutting operation and before
the blanking operation.
In the first case, the leading edges of the respective sheets remain
seized in the grippers of the gripper bar of the sheet conveying device and
the
waste of the sheet, after separating of blanks , is led by the gripper bar
towards
the waste removal station.
In the second case, the sheet is released by the gripper bar and
delivered in order to be piled up on a single storage pile formed between
veitical jogging stops adjusted to the format of the sheets to be piled up.
As can be noted, the two aforesaid operation modes require
respective specific means and can thus not be used in a station comprising
multi-purpose means. Furthermore,.the blanking only needs a tool moved by
the alternate movements of the upper cradle of the blanking station, but the
delivery device of non-severed sheets requires a movable means for the
release of the sheets from the grippers and their guiding inside a storage
frame.
In fact, said movable means has to be able to lower underneath the level of
the
gripper bar and since it has to retain and push the leading edges of the
sheets
when the grippers of the gripper bar open, it must be formed like a comb in
order to pass between the grippers and the bar profile holding these grippers.
Thus, this movable sheet delivery means has to be moved with respect to the
cradle so that actuating means must be provided for moving said movable
means in accordance with the movement of the upper cradle of the blanking
station.
The object of the present invention is to carry out, on one and the
same station of a diecutting press, according to the need, the blanking or the
delivery of non-severed sheets.
To this end, the present invention relates to a blanking station of a
diecutting press as described herein.
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The first advantage of this invention is to render the use of the
diecutting press more flexible. This solution leads to an investment economy
and
an optimal use of the machine production capacity.
In accordance with an aspect of the invention, there is provided a
blanking station of a diecutting press, comprising: an upper cradle for a
blanking
device; gripper bars near the cradle including grippers for gripping sheets,
the
gripper bars being operable for conveying sheets in progress; wherein the
upper
cradle comprises means for removably mounting alternately the blanking device
or
a delivery device for non-severed sheets; and at least one cam for opening the
grippers of the gripper bars, the cam being mounted in removable manner.
Further features and advantages of this invention will become
evident from the reading of the following description and from the enclosed
drawings illustrating, schematically and by way of example, an embodiment of
the blanking station of a diecutting press according to the present invention.
Fig. 1 is a topview of the blanking station with the delivery device of
non-severed sheets;
Fig. 2 is a sectional view according to the line II-II of fig. 1;
Fig. 3 is a side view similar to fig. 2, illustrating the mechanism of
the delivery device in its neutralized position;
Fig. 4 is a side view of a lifting device of the chain guide of the
driving device of the gripper bars.
Referring to figs. 1 and 2, these drawings show a delivery device of
non-severed sheets mounted on the separating station of blanks diecut by the
diecutting press.
Said delivery device of non-severed sheets comprises a rectangular
frame 1 slidably mounted in a slide 2a of a chase member or upper cradle 2 of
the blanking station of which only said member is illustrated in fig. 2. The
rectangular frame 1 can thus be laterally positioned or removed from the
separating station, from the operator's side of the machine depending on
whether the diecut sheets with the diecut blanks attached to one another are
to
be collected in order to undergo one or a plurality of operations in another
machine or the diecut blanks are to be separated and collected in distinct
piles
or stacks. In this case, the frame 1 has to be removed and another frame, or
the "board" blanking tool, has to be slid in the slides 2a of the upper cradle
2.
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Said other frame or "board" tool has not been shown since it is simply moved
by
the alternate vertical movements of the upper cradle 2 controlled by the drive
mechanism of the diecutting press. Thus, this blanking frame does not differ
from a conventional frame.
Contrary to the frame of the blanking device, the frame 1 of the
non-severed sheet delivery device comprises an ejector member 3 which
extends on the whole length of the front transversal side of the frame 1, with
respect to the travelling direction of the diecut sheets 4, conveyed by the
gripper bar 23 (fig. 2) conventionally driven by two chains (not shown) in
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endless loops respectively arranged on both sides of the diecutting press to
which are fixed the two ends of the gripper bar 23.
The ejector member 3 is fixedly attached to two link members 5a,
5b (fig. 1) pivotally mounted about a transverse axis 6. Each link member 5a,
5b comprises a roller 7a, 7b pressed by a traction spring 8a, 8b against a cam
9a, 9b fixedly attached to a swivelling shaft 10a, 10b. Each cam 9a, 9b has an
arm 11 a, 11 b to which is fixed an end of a spring 12a, 12b whose other end
is
fixed to a locking member 13a, 13b, pivotally mounted about the swivelling
shaft 10a, 10b of the respective cams 9a, 9b.
Each locking member 13a, 13b is connected to the shaft 14 of a
crank 15 by an arm 16a, 16b, whose one end is linked to the locking member
13a, respectively 13b and whose other end is linked to an axis 17a, 17b
distinct
from the shaft 14 of the crank 15. A stop 18a, 18b fixedly attached to the cam
9a, respectively 9b, extends in the trajectory of the locking member 13a, 13b.
A
movable stop 19a, 19b offset with respect to the shaft 14 extending up to the
crank 15 is attached by the axis 17a, 17b to each arm'16a, respectively 16b. A
fixed stop 20a, 20b fixed by distance pieces 1 a, 1 b to the frame 1 is
arranged in
the trajectory of each movable stop 19a, 19b; limiting the movement of each
locking member 13a, 13b under the effect of the traction of the spring 12a,
respectively 12b.
Each shaft 10a, 1 Ob is also fixedly attached to a drive lever 21 a,
21 b, which ends in a roller adapted to come into contact with a horizontal
support surface 22a, 22b. Moving vertically alternately from top to bottorn
and
inversely, the upper cradle 2 pivots the drive levers 21a, 21b, in the
clockwise
direction when the upper cradle 2 lowers and the springs 12a, 12b pivot them
in
the opposite direction when it raises, the movement of the drive levers in the
opposite direction resulting from the resilience of the springs 12a, 12b which
have been tightened during the movement of the shafts 10a, 10b. These
directions of rotation are those which can be observed with reference to figs.
2
and 3.
During the movement of the drive levers 21 a, 21 b in the clockwise
direction, the cams 9a, 9b are driven in the same direction. Since the radius
of
the parts of these cams 9a, 9b, against which the rollers 7a, respectively 7b
rest, decrease when they have been driven from the maximum angle value of
the drive levers 21 a, 21 b, the link members 5a, 5b both pivot under the
traction
of the springs 8a, 8b. Consequently, the ejector member 3 rotates during the
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lowering of the upper cradle 2 so as to be brought into the position shown in
dot-and-dash lines in fig. 2:
This movement of the comb-like ejector member 3 has to be
accurately synchronised with, the movement from the right to the left (fig. 2)
of
the gripper bar 23 -and with the opening of the grippers 23a. This opening is
realized in conventional manner in this kind of machine, by a cam 24 (fig. 2)
arranged in the trajectory of the rotler lever 23b for opening the grippers
23a of
the gripper bar 23. Thus, theteeth of the comb which forms the ejector member
3 pass between the grippers 23a of the gripper bar 23, so that the leading
edge
of the sheet 4 is pushed by the -ejector member 3 as soon as released by the
gripper bar 23.
Since in the case of a delivery station of non-severed sheets
converted into a blanking station, the grippers 23a -of the gripper bars are
not
allowed to be open :in order to enable the gripper bar 23 to remove the
remaining waste after the blanking, it must be possible to remove the cams 24
when converting the delivery station.
As can be noted on fig. 2, the:angular movement of the drive levers
21 a, 21 b is limited by the,horizonta{ support surfaces 22a, 22b, so that if
the
frame 1 of the non-severed sheet delivery device should be slid in order to
remove the upper cradle 2 and replace it by the blanking device (not shown),
it
is required to neutralize the springs 12a, 12b which rotate the drive levers
21 a,
21 b and the cams 9a, 9b fixedly attached to the same shaft 10a, <respectively
10b and hinder the removal of the frame 1 from the delivery station.
To obtain this result, it is enough to rotate the crank 15 fixedly
attached to the shaft 14 of 180 in the clockwise direction in order to change
from its position shown in figs. 1, 2 to the position illustrated in fig. 3.
Firstly, the
traction of the springs 12a, 12b, which apply the movable stops 19a, 19b
fixedly
attached to the arms 16a, 16b against the fixed stops 20a, 20b, must be
overcome. This movement of the crank causes a slight rotation of the locking
members 13a, 13b of the springs 12a, 12b in the anticlockwise direction. Once
the traction of the spring overcome, it acts in the direction of rotation of
the
crank until the locking members 13a, 13b meet the stops 18a, 18b which are
fixedly attached to the cams 9a, 9b and the drive levers 21 a, 21 b (fig. 1)
neutralizing the traction of the springs 12a, 12b on the crank 15. Finishing
the
half-rotation of this crank 15, the drive levers 21 a, 21 b are released from
the
horizontal support surfaces 22a, 22b, as can be seen on fig. 3, thus allowing
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the removal of the frame 1 from the delivery device without interference of
the
drive levers 21 a, 21 b.
The delivery device 1 of the non-severed sheets 4 is further
provided with a plurality of means 25 for accelerating the lowering of the
sheets
4 after opening of the grippers 23a. These means 25 are distributed over the
whole surface of the delive .ry device. They are located at a lower level than
the
frame 1, so as to come into contact with the surface of the delivered sheet 4,
after opening of the grippers 23a of the gripper bar 23.
Complementary to the device for "non-severed sheet delivery", the
delivery station according to the present invention further comprises a
lifting
device of a portion of the guide chain 26 on the operator's side -of the
diecutting
press, located in front of the cam for opening the grippers 23a of the gripper
bar
23. This device is shown in fig. 4.
For thispurpose, the guide chain 26 has a movable portion hanging
on a vertical rod 27 pressed towards its lowered position, illustrated in fuil
line,
by a compression spring 28. A control crank 29 is fixed to a swivelling shaft
30
extending parallely#o the travelling direction of the diecut sheets 4, so that
the
crank moves Jn a transverse plane.
Two respective ends of two arms 31 are linked to a point offset with
respect to the shaft 30. The two other respective ends of these two arms are
linked to two other arms 32; two respective ends of which are linked to the
same support members 33 on which is pivoted the shaft 30 of the crank 29.
Two rollers 34 are.pivoted on the same axis on which the two arms 31, 32 are
linked together. Pulling the crank 29 towards him, regarding fig. 4 which
shows
this crank 29 as being located with respect to the operator, the two arms 31,
32
raise the rollers 34 which at the limit of travel raise a shoulder of the rod
27 (not
visible because hidden behind a distance piece 33a between the two members
33) on which rests the compression spring 28. This rod 27 is raised into the
position illustrated in dat-and-dosh lines on fig. 4, so that the cam 24 for
opening the grippers 23a of the gripper bar 23 is released.
With this device it is possible to remove the storage guides 35 of
the delivered and piled up sheets 4, guides on which are fixed the cams 24 for
opening the grippers 23a of the gripper bar 23. However, this device is not
absolutely necessary but avoids the dismantling of the opening cams 24 and
thus allows a gain in time.